Applications of Electron Diffraction Using PDF 4 Relational Database

1. Electron Diffraction Applications Using the PDF-4+ Relational Database

2. Electron Diffraction in Materials Science Electron diffraction is an important technique for crystallographic characterization, a valuable complementary tool to powder and single crystal X-ray diffraction. Applications include phase identification and precision determination of subtle structural details for crystals in the micrometer to nanometer size range.

3. Electron Diffraction with the PDF-4+ Database The PDF-4+ database can be used to generate selected area electron diffraction (SAED) and electron backscatter diffraction (EBSD) patterns. This tutorial will deal with SAED patterns. The SAED patterns simulated by PDF-4+ 2009 use calculated intensities (using atomic scattering factors for electrons) when atomic coordinates are available, and intensities tabulated in the PDF entries when atomic coordinates are unavailable.

4. SAED Patterns with the PDF-4+ Database The PDF-4+ 2009 database does not perform search-match procedures directly on digital SAED patterns. They must first be indexed to obtain a D-spacing-Intensity (D-I) list, then search-match procedures can be performed using SIeve+. Obtaining a D-I list and performing search-match using SIeve+ will be illustrated in the following slides.

5. Prepare a D-I List Use SAED patterns obtained from multiple zone axes with a known camera constant to prepare a D-I list: d () I/I o 2.086 100 1.277 50 1.089 50 0.829 50

6. Use All Available Information The current sample is a metal alloy containing iron (based on EDS analysis). Before performing search-match with the D-I list in SIeve+, search the PDF database for compounds meeting the sample criteria: Empirical formula contains Fe Subfile: Metals and Alloys

7. Searching for Iron Alloys

8. Using SIeve+ Begin a SIeve+ session by pressing the SIeve+ button

9. Using SIeve+ then choose File New Session from the pull down menu, input the D-I list, and press the OK button to begin search-match.

10. Adding the Search Results Check the Matches Filters box and choose the search for alloys containing Fe to limit the search space. In this case, we have a very good match for Iron (FCC).

11. Accessing SAED Patterns Press the SAED Pattern button

12. SAED Patterns Preferences such as the zone axis, camera constant, and accelerating voltage can be edited with on-the- fly dynamic re-simulation of the pattern. and the Simulated Electron Pattern window will appear.

13. SAED Patterns for Iron Simulation & Experiment The following three slides compare simulated and experimental SAED patterns for FCC Iron (Fe, space group Fm-3m) for three zone axes using PDF card 04-002-3692, which was one of the top two matches to the D-I list using search-match with SIeve+.

14. FCC Iron (Fe, Fm-3m) [111] Zone Axis

15. FCC Iron (Fe, Fm-3m) [121] Zone Axis

16. FCC Iron (Fe, Fm-3m) [343] Zone Axis

17. SAED Patterns Summary The simulated FCC Iron SAED patterns match closely with the experimental patterns. PDF-4+ 2009 generates SAED patterns with intensities calculated from atomic coordinates based on atomic scattering factors for electrons when a structural model is available, and SAED patterns with intensities approximated using the D-I list for entries without atomic coordinates.

18. International Centre for Diffraction Data 12 Campus Boulevard Newtown Square, PA 19073 Phone: 610.325.9814 Toll Free in U.S. & Canada: 866.378.0331 Fax: 610.325.9823 Thank you for viewing our tutorial. Additional tutorials are available at the ICDD website ( www.icdd.com ).